Enhanced erosion by continental arc volcanism as a driver of the Cambrian Explosion

Yaowen Wu; Hui Tian; Haifeng Fan; Philip A.E. Pogge von Strandmann; Wei Zhao; Jie Li; He Sun; Haiou Gu; Chaojin Lu; Xianyi Liu; Tengfei Li; Sui Ji; Ping’an Peng

doi:10.1038/s41467-025-64253-w

Enhanced erosion by continental arc volcanism as a driver of the Cambrian Explosion

Yaowen Wu
, Hui Tian^*
, Haifeng Fan^*
, Philip A.E. Pogge von Strandmann
, Wei Zhao
, Jie Li
, He Sun
, Haiou Gu
, Chaojin Lu
, Xianyi Liu
, Tengfei Li
, Sui Ji
, Ping’an Peng

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Nutrient availability and rising oxygen levels are important for the Cambrian Explosion (~540–515 Ma), both of which can be satisfied via enhanced weathering driven by climate and tectonics. Although increased subduction and continental arc volcanism coincided with the Cambrian Explosion, their weathering-nutrient feedback role remained unclear. Here we integrate Li-Os isotopes with previously published Sr isotope to investigate connections between subduction-driven weathering dynamics and animal diversification. Our results reveal a shift from enhanced erosion of arc-related juvenile rocks (ca. 540–525 Ma) to clay-forming weathering of old crust (525–515 Ma). We propose that subduction-driven warming and uplift may have accelerated erosion of phosphorus-rich juvenile rocks, releasing nutrients that boosted marine productivity and subsequent oxygen buildup through organic burial. This process ultimately fueled early animal diversification, providing additional evidence for tectonic control of biogeochemical cycles during the Cambrian Explosion.

Original language	English
Article number	9204
Number of pages	11
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-64253-w
Publication status	Published - 16 Oct 2025

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© The Author(s) 2025.

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Enhanced erosion by continental arc volcanism as a driver of the Cambrian ExplosionFinal published version, 2.04 MBLicence: CC BY-NC-ND

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title = "Enhanced erosion by continental arc volcanism as a driver of the Cambrian Explosion",

abstract = "Nutrient availability and rising oxygen levels are important for the Cambrian Explosion (\textasciitilde{}540–515 Ma), both of which can be satisfied via enhanced weathering driven by climate and tectonics. Although increased subduction and continental arc volcanism coincided with the Cambrian Explosion, their weathering-nutrient feedback role remained unclear. Here we integrate Li-Os isotopes with previously published Sr isotope to investigate connections between subduction-driven weathering dynamics and animal diversification. Our results reveal a shift from enhanced erosion of arc-related juvenile rocks (ca. 540–525 Ma) to clay-forming weathering of old crust (525–515 Ma). We propose that subduction-driven warming and uplift may have accelerated erosion of phosphorus-rich juvenile rocks, releasing nutrients that boosted marine productivity and subsequent oxygen buildup through organic burial. This process ultimately fueled early animal diversification, providing additional evidence for tectonic control of biogeochemical cycles during the Cambrian Explosion.",

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T1 - Enhanced erosion by continental arc volcanism as a driver of the Cambrian Explosion

AU - Wu, Yaowen

AU - Tian, Hui

AU - Fan, Haifeng

AU - Pogge von Strandmann, Philip A.E.

AU - Zhao, Wei

AU - Li, Jie

AU - Sun, He

AU - Gu, Haiou

AU - Lu, Chaojin

AU - Liu, Xianyi

AU - Li, Tengfei

AU - Ji, Sui

AU - Peng, Ping’an

PY - 2025/10/16

Y1 - 2025/10/16

N2 - Nutrient availability and rising oxygen levels are important for the Cambrian Explosion (~540–515 Ma), both of which can be satisfied via enhanced weathering driven by climate and tectonics. Although increased subduction and continental arc volcanism coincided with the Cambrian Explosion, their weathering-nutrient feedback role remained unclear. Here we integrate Li-Os isotopes with previously published Sr isotope to investigate connections between subduction-driven weathering dynamics and animal diversification. Our results reveal a shift from enhanced erosion of arc-related juvenile rocks (ca. 540–525 Ma) to clay-forming weathering of old crust (525–515 Ma). We propose that subduction-driven warming and uplift may have accelerated erosion of phosphorus-rich juvenile rocks, releasing nutrients that boosted marine productivity and subsequent oxygen buildup through organic burial. This process ultimately fueled early animal diversification, providing additional evidence for tectonic control of biogeochemical cycles during the Cambrian Explosion.

AB - Nutrient availability and rising oxygen levels are important for the Cambrian Explosion (~540–515 Ma), both of which can be satisfied via enhanced weathering driven by climate and tectonics. Although increased subduction and continental arc volcanism coincided with the Cambrian Explosion, their weathering-nutrient feedback role remained unclear. Here we integrate Li-Os isotopes with previously published Sr isotope to investigate connections between subduction-driven weathering dynamics and animal diversification. Our results reveal a shift from enhanced erosion of arc-related juvenile rocks (ca. 540–525 Ma) to clay-forming weathering of old crust (525–515 Ma). We propose that subduction-driven warming and uplift may have accelerated erosion of phosphorus-rich juvenile rocks, releasing nutrients that boosted marine productivity and subsequent oxygen buildup through organic burial. This process ultimately fueled early animal diversification, providing additional evidence for tectonic control of biogeochemical cycles during the Cambrian Explosion.

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SN - 2041-1723

VL - 16

JO - Nature Communications

JF - Nature Communications

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M1 - 9204

ER -

Enhanced erosion by continental arc volcanism as a driver of the Cambrian Explosion

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